A vehicle includes a cabin having a first room and a second room that are capable of accommodating at least one passenger, and configured to isolate one or more passengers accommodated in the first room from one or more passengers accommodated in the second room, a guidance apparatus configured to guide the at least one passenger to be accommodated in either the first room or the second room, and a control apparatus configured to control the guidance apparatus. When a user boards as the at least one passenger, the control apparatus determines which of the first room and the second room the user is to board, based on information regarding the user. The guidance apparatus is configured to guide and board the user to whichever of the first room and the second room determined by the control apparatus.

A vehicular imaging system includes an electronic control unit (ECU) and a camera device disposed at a body portion of the vehicle. The camera device includes structure that supports a camera and that is movable between a stowed position, where the structure and camera are within the body portion, and an extended position, where the structure and camera are extended outward from the body portion so that the camera is positioned with a field of view exterior of the vehicle. The structure includes a plurality of individually movable elements that are disposed adjacent one another and that cooperate to form the outer surface. The individually movable elements, when moved relative to the body portion of the vehicle, cooperate to extend and retract the camera. The camera, when the structure is in the extended position, captures image data and provides captured image data to the ECU.

Systems and methods for viewing, observing, and/or monitoring a second row of seats in a vehicle are provided. A camera can be disposed in the second row of seats, near the rear of the vehicle, and can be forward-facing or generally forward-facing. The camera can provide a live video feed to a display located on the instrument panel in the front row of the vehicle.

Imaging and display system includes: a display; an optical system including a first mirror and a second mirror; a housing; a light-transmissive cover transparent to light and disposed to cover at least part of an opening of the housing; and a driver monitoring camera supported by a supporting body connected outside of the housing. First light emitted from the display passes through the light-transmissive cover via the optical system, and is reflected by a windshield toward a direction of the user. The driver monitoring camera captures an image of a driver shown on the light-transmissive cover by second light from a direction of the driver reflected by the windshield toward a direction of the light-transmissive cover.

A vehicle theft-prevention apparatus can include at least one computing device couple to a plurality of sensors and a wireless transceiver. The plurality of sensors can be configured to sense measurements proximate to a vehicle. The at least one computing device can be configured to read a plurality of first measurements of a first sensor of the plurality of sensors. Based on the plurality of first measurements from the first sensor, the at least one computing device can determine that a key fob moved outside of a range of the first sensor. In response to the key fob moving outside of the range of the first sensor, the at least one computing device can transition to an armed state. The at least one computing device can read a plurality of second measurements from a subset of the plurality of sensors. Based on the plurality of second measurements, the at least one computing device can determine that a person has entered the vehicle.

The invention relates to a system (1) for monitoring the surroundings of a motor vehicle (100), in particular an autonomous or semi-autonomous motor vehicle, wherein the system (1) includes at least one optical image capturing device (2) as well as further a lighting device (3, 4), wherein the optical image capturing device (2) is arranged for capturing an area of coverage (E1) of the surroundings, and wherein the area of coverage (E1) can be illuminated at least partially, preferably completely, by the lighting device (3, 4), and wherein the lighting device (3, 4) is arranged for generating a motor vehicle light distribution or part of a motor vehicle light distribution. The system (1) includes at least one optical additional image capturing device (5), which is arranged to capture a so-called additional area of coverage (E2), and wherein the system (1) further includes an additional lighting device (6), which is arranged to illuminate at least partially, preferably completely, the additional area of coverage (E2), also called the second area of coverage.

An articulatable mount for temporarily affixing a camera and illumination system to a vehicle is disclosed. The articulating drive mechanism is lightweight, vertically compact, and ruggedized for severe service such as withstanding shocks from off-road travel and abrupt maneuvering. Articulation and illumination may be controlled remotely over Wi-Fi from inside or nearby the vehicle, and encrypted video feeds may be received by authorized users of an ad-hoc network of available smart-phone users and in-vehicle computer systems authorized and authenticated to participate in the network.

Disclosed are a vehicle and a control method thereof configured for performing a vehicle control to detect lighting irradiated from a lamp at the time of vehicle parking and park the vehicle safely and accurately. The vehicle includes a lamp configured to irradiate lighting to a ground, a camera configured to photograph the lighting irradiated to the ground to obtain information on a form of the lighting of the lamp, and a controller configured to determine at least one of the form of the ground to which the lighting is irradiated and whether or not an obstacle exists on the ground to which the lighting is irradiated, based on the information on the obtained form of the lighting of the lamp.

A vehicular interior rearview mirror assembly includes a mounting structure and a mirror head pivotally mounted at the mounting structure via a pivot joint. The mirror head includes a mirror casing and a display and mirror assembly, which includes a frame portion, a video display screen at a front side of the frame portion, and a mirror reflective element at a front side of the video mirror display screen. The mirror reflective element includes a variable reflectivity liquid crystal (VRLC) stack of layers, which have a liquid crystal (LC) layer disposed between a rear glass substrate and a front glass substrate. The front and rear glass substrates are integrated in the VRLC stack of layers. With the mounting structure mounted at an interior portion of a vehicle, the video display screen is operable to display video images derived from video images provided by an ECU of the vehicle.

Disclosed herein is a vehicle theft prevention device. The device can include a data store including event configuration data. The device can include one or more sensors that can sense various types of measurements proximate to a vehicle. The device can include a computing device in communication with the sensors. The computing device can read measurements from the sensors and determine that a particular event has occurred. The computing device can analyze the measurements to determine the particular event occurred based on the event configuration data. When the particular event occurs, the computing device can perform one or more remedial actions.